posted on 2019-05-21, 11:08authored byManjeet Mukherjee, Sarah Sabir, Laura O’Regan, Josephina Sampson, Mark W. Richards, Nicolas Huguenin-Dezot, James R. Ault, Jason W. Chin, Anastasia Zhuravleva, Andrew M. Fry, Richard Bayliss
Hsp72 is a member of the 70-kD heat shock family of molecular chaperones
(Hsp70s) that comprise a nucleotide-binding domain (NBD) and a substrate binding domain (SBD) connected by a linker that couples the exchange of
adenosine diphosphate (ADP) for adenosine triphosphate (ATP) with the
release of the protein substrate. Mitotic phosphorylation of Hsp72 by the
kinase NEK6 at Thr66 located in the NBD promotes the localization of Hsp72
to the mitotic spindle and is required for efficient spindle assembly and
chromosome congression and segregation. Here, we determined the crystal
structure of the Hsp72 NBD containing a genetically encoded phosphoserine
at position 66. This revealed structural changes that stabilized interactions
between subdomains within the NBD. ATP binding to the NBD of unmodified
Hsp72 resulted in the release of substrate from the SBD, but phosphorylated
Hsp72 retained substrate in the presence of ATP. Mutations that prevented
phosphorylation-dependent subdomain interactions restored the connection
between ATP binding and substrate release. Thus, phosphorylation of Thr66 is
a reversible mechanism that decouples the allosteric connection between
nucleotide binding and substrate release, providing further insight into the
regulation of the Hsp70 family. We propose that phosphorylation of Hsp72 on
Thr66 by NEK6 during mitosis promotes its localization to the spindle by
stabilizing its interactions with components of the mitotic spindle.
Funding
We thank the beamline scientists of Diamond I04,
Astbury support scientists Iain Manfield and Chi Trinh for technical assistance,
Sharon Yeoh for assistance with manuscript and figure preparation and Dr. E.
Lafer (UTHSCSA) for her kind gift of pET28a-Hsp110 plasmid. Funding: This
work was supported by grants from BBSRC and CRUK grants to RB
(BB/L023113/1 and C24461/A12772), and Worldwide Cancer Research to
AMF (16-0119). The Xevo G2-XS Q-TOF mass spectrometer and liquid
chromatography equipment was purchased with an Advanced Life Sciences
Research Technology Initiative (ALERT 2014) grant from the BBSRC
(BB/M012573/1).
History
Citation
Science Signaling, 2019, 11 (543), eaao2464
Author affiliation
/Organisation/COLLEGE OF LIFE SCIENCES/Biological Sciences/Molecular & Cell Biology
Version
AM (Accepted Manuscript)
Published in
Science Signaling
Publisher
American Association for the Advancement of Science